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So I am trying to write this function, read_deck, which is:

void read_deck(char *filename, queue *deck)

This function takes a character string of a file name. It opens the file filename for reading. It then reads cards one at a time into the queue deck so that the order tin which they appear in the file is identical to the order they appear in the queue. Cards are read until the end of a file is reached at which point the file is closed and the function returns.

int main(int argc, char **argv) 

Main will set up the queue deck and use read_deck to fill it up with cards from the file designated by the first command line argument. It will then print the deck size and all cards in it (functions length and print_list) will be useful for this.

My program currently : not done and not sure how to approach it further

   #include "libcardlist.h"
#include <stdio.h>

void read_deck(char *filename, queue *deck);

int main(int argc, char **argv){

    char *filename = argv[1];
    FILE *f = fopen(filename, "r"); // open file
    char buf[1024]; 
    stack *deck = new_stack(); // new deck
    int status;
    card cards;

    //how to set up the queue
    read_deck(  f , deck  ); // what would be the fields here?

void read_deck(char *filename, queue *deck){
   int status;
   card cards;
  for (status = fscanf(f,"%s", buf); 
         status != EOF; 
         status = fscanf(f,"%s", buf))
            fscanf (f,"%d%c", &cards.face,&cards.suit);
            printf (" %d%c\n",cards.face,cards.suit);

for my current read_deck, it only prints every other card for some reason.. This is the desired output:

gcc p2.c libcardlist.c
lila [program1]% cat smalldeck.cards 
lila [program1]% a.out smalldeck.cards
Deck 9: 14S 2D 13C 10H 5H 11C 13S 4D 13D 

mine output right now:


the libcardlist.c (correct)

/* This file contains functions to operate on a lists, stacks, and
   queues of cards */

#include <stdio.h>
#include <stdlib.h>

/* Report an error and exit the program with a failure */
void cardlist_error(char *msg){
  fprintf(stderr,"libcardlist: %s\n",msg);

/* Basic type for a card */
typedef struct {
  int face;         /* 2-14 */
  char suit;            /* C H S D */
} card;

/* Convert a string like 14D into a card */
card str2card(char *buf){
  card c;
  return c;

/* Given a card c, put a string like 14D in buf representing it.  Good
   for printing  */
char *card2str(card c, char *buf){
  sprintf(buf, "%d%c", c.face, c.suit);
  return buf;

/* Lists are of cards */
typedef card node_data;

/* List Functions */

/* Basic type for a list: data and next */
typedef struct node {
  node_data data;
  struct node *next;
} node;

/* Returns how many nodes are in a list */
int length(node *l){
  int n = 0;
  while(l != NULL){
    l = l->next;
  return n;

/* Reverses a list, creates a fresh and distinct copy of the list */
node *reverse(node *l){
  node *r = NULL;
  while(l != NULL){
    node *new = malloc(sizeof(node));
    new->data = l->data;
    new->next = r;
    r = new;
    l = l->next;
  return r;

/* Print a list of cards to a file pointer */
void print_list(node *l, FILE *f){
  char buf[1024];       /* Use this for string conversion */
  while(l != NULL){     /* Til end of list */
    fprintf(f,"%s ", card2str(l->data,buf)); /* Convert to string and print */
    l = l->next;                 /* Advance to next */

/* Stack functions */

/* Basic type for a stack */
typedef struct stack {
  node *top;
} stack;

/* Make a new stack: allocate memory and set its top pointer to
   initially be NULL for an empty stack */
stack *new_stack(){
  stack *s = malloc(sizeof(stack));
  s->top = NULL;
  return s;

/* Return 1 if the stack is empty and 0 otherwise  */
int stack_empty(stack *s){
  return s->top == NULL;

/* Push something on the top of the stack */
void stack_push(stack *s, node_data p){
  node *new = malloc(sizeof(node)); /* New node for the new data */
  new->data = p;            /* New node gets the new data */
  new->next = s->top;           /* new will be on top, point it at current top */
  s->top = new;             /* new is on top now */

/* Remove the top element of the stack */
void stack_pop(stack *s){
  if(!stack_empty(s)){      /* If the stack is not empty */
    node *remove = s->top;  /* Track what's being removed */
    s->top = s->top->next;  /* Advance the top down one */
    free(remove);       /* Get rid of the old top node */

/* Retrive data from the top of the stack */
node_data stack_top(stack *s){
  if(!stack_empty(s)){      /* If the stack is not empty */
    return (s->top->data);  /* Return the data */
  else{             /* Otherwise there is an error */
    cardlist_error("stack_top called on empty stack");

/* Queue functions */

/* Basic type for the queue data structure */
typedef struct queue {
  node *front;          /* Front of the line */
  node *rear;           /* Back of the line */
} queue;

/* Make a new queue which is initially empty */
queue *new_queue(){
  queue *q = malloc(sizeof(queue));
  q->front = NULL;
  q->rear = NULL;
  return q;

/* Returns 1 if the queue is empty and 0 otherwise */
int queue_empty(queue *q){
  return q->front == NULL;

/* Add something to the front of the queue */
void queue_add(queue *q, node_data p){
  node *new = malloc(sizeof(node)); /* Adding a new node */
  new->data = p;            /* Set new node's data */
  new->next = NULL;         /* It will be the end of the line */
  if(queue_empty(q)){       /* First node to be added */
    q->front = new;     /* Front and back are new node */
    q->rear = new;
  else {            /* Not first node */
    q->rear->next = new;    /* Current rear is second to last */
    q->rear = new;      /* new guy is last */

/* Remove first element of the queue */
void queue_remove(queue *q){
  if(!queue_empty(q)){      /* If the queue is not empty */
    node *remove = q->front;    /* Track who is being removed */
    q->front = q->front->next;  /* Second in line is now at front */
    free(remove);       /* Remove the old front */

/* Get the data for the front of the queue */
node_data queue_front(queue *q){
  if(!queue_empty(q)){      /* If queue is not empty */
    return (q->front->data);    /* Get data for front node */
  else{             /* Otherwise this is an error */
    cardlist_error("queue_front called on empty queue");


segmentation fault
share|improve this question
Is this homework? Is so you should tag it as such. –  Perception Nov 8 '12 at 1:59
The homework tag is in the process of being removed; any questions that are homework related should be able to stand on their own without the tag. –  Makoto Nov 8 '12 at 2:06
@Perception Please stop advising this. The homework tag is obsolete and in the process of being removed. Please see the tag wiki for further information. –  Bart Nov 8 '12 at 10:22
Interesting. I always thought it was a useful tag. Thanks for the heads up I won't ask people to tag their questions with it anymore then. –  Perception Nov 8 '12 at 14:14

2 Answers 2

Your read_deck function wants to read from the input file, but you already opened the file in main(), so pass the FILE *f to read_deck. The prototype becomes:

void read_deck(FILE *f, queue *deck);

and you would call it with:

read_deck(f, deck);
share|improve this answer
read_deck( FILE *f, queue *deck )? –  Jenny C Nov 8 '12 at 2:17

The for loop in read_deck calls fscanf twice per iteration. Once in the for statement, and once in the body of the loop. (Plus once at the beginning of execution, but that's only run once per function call.) The fscanf(f,"%s", buf) calls write to *buf; though nothing is done with the data, but these calls do consume parts of the file. The fscanf (f,"%d%c", &cards.face,&cards.suit); line is grabbing data, but only the lines not consumed by the other calls.

So you have to pick one. Either remove the fscanf calls from the for loop (and update the status checks accordingly), or use sscanf to read from *buf. I recommend the former.

share|improve this answer
Ok i move the fscanf from the for loop, what do you mean update the status checks accordingly? –  Jenny C Nov 8 '12 at 2:40

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